Optimized conditions for pulsed field gel electrophoretic separations of DNA

doi:10.1093/nar/16.15.7563

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Nucleic Acids Research, 1988, Vol. 16, No. 15 7563-7582
© 1988

Articles

Optimized conditions for pulsed field gel electrophoretic separations of DNA

Bnice W. Birren, Eric Lai, Steven M. Clark, Leroy Hood and Melvin I. Simon

Division of Biology, California Institute of Technology Pasadena, CA 91125, USA

Received February 29, 1988. Revised June 28, 1988. Accepted June 28, 1988.

Quantitative measurement of DNA migration in gel electrophoresisrequires precisely controlled homogeneous electric fields. Anew electrophoresis system has allowed us to explore severalparameters governing DNA migration during homogeneous fieldpulsed field gel (PFG) electrophoresis. Migration was measuredat different switch times, temperatures, agarose concentrations,and voltage gradients. Conditions which increase DNA velocitiespermit separation over a wider size range, but reduce resolution.He have also varied the angle between the alternating electricfields. Reorientation angles between 105° and 165° giveequivalent resolution, despite significant differences in DNAvelocity. Separation of DNA fragments from 50 to greater than7000 kilobases (Kb) can easily be optimized for speed and resolutionbased on conditions we describe.

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